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Air-Coupled Ultrasonic Spiral Phased Array for High-Precision Beamforming and Imaging

Allevato, Gianni ; Rutsch, Matthias ; Hinrichs, Jan ; Haugwitz, Christoph ; Müller, Raphael ; Pesavento, Marius ; Kupnik, Mario (2024)
Air-Coupled Ultrasonic Spiral Phased Array for High-Precision Beamforming and Imaging.
In: IEEE Open Journal of Ultrasonics, Ferroelectrics, and Frequency Control, 2022, 2
doi: 10.26083/tuprints-00027707
Article, Secondary publication, Publisher's Version

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Item Type: Article
Type of entry: Secondary publication
Title: Air-Coupled Ultrasonic Spiral Phased Array for High-Precision Beamforming and Imaging
Language: English
Date: 10 September 2024
Place of Publication: Darmstadt
Year of primary publication: 12 January 2022
Place of primary publication: New York
Publisher: IEEE
Journal or Publication Title: IEEE Open Journal of Ultrasonics, Ferroelectrics, and Frequency Control
Volume of the journal: 2
DOI: 10.26083/tuprints-00027707
Corresponding Links:
Origin: Secondary publication service
Abstract:

Sparse spiral phased arrays are advantageous for many emerging air-coupled ultrasonic applications, since grating lobes are prevented without being constrained to the half-wavelength element spacing requirement of well-known dense arrays. As a result, the limitation on the maximum transducer diameter is omitted and the aperture can be enlarged for improving the beamforming precision without requiring the number of transducers to be increased. We demonstrate that in-air imaging, in particular, benefits from these features, enabling large-volume, unambiguous and high-resolution image formation. Therefore, we created an air-coupled ultrasonic phased array based on the Fermat spiral, capable of transmit, receive and pulse-echo operation, as well as 3D imaging. The array consists of 64 piezoelectric 40-kHz transducers (Murata MA40S4S), spanning an aperture of 200mm. First, we provide an application-independent numerical and experimental characterization of the conventional beamforming performance of all operation modes for varying focal directions and distances. Second, we examine the resulting imaging capabilities using the single line transmission technique. Apart from the high maximum sound pressure level of 152 dB, we validate that unambiguous high-accuracy 3D imaging is possible in a wide field of view (±80°), long range (20cm to 5m+) and with a high angular resolution of up to 2.3°. Additionally, we demonstrate that object shapes and patterns of multiple reflectors are recognizable in the images generated using a simple threshold for separation. In total, the imaging capabilities achieved are promising to open up further possibilities, e.g. robust object classification in harsh environments based on ultrasonic images.

Uncontrolled Keywords: Air-coupled, ultrasound, sparse array, spiral array, phased array, imaging, sonar
Status: Publisher's Version
URN: urn:nbn:de:tuda-tuprints-277074
Classification DDC: 600 Technology, medicine, applied sciences > 621.3 Electrical engineering, electronics
Divisions: 18 Department of Electrical Engineering and Information Technology > Measurement and Sensor Technology
18 Department of Electrical Engineering and Information Technology > Institute for Telecommunications > Communication Systems
Date Deposited: 10 Sep 2024 12:33
Last Modified: 14 Oct 2024 11:33
URI: https://tuprints.ulb.tu-darmstadt.de/id/eprint/27707
PPN: 522026354
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